from typing import TYPE_CHECKING, Optional, Union, List, cast, Dict, Any

from chromadb.api.models.CollectionCommon import CollectionCommon
from chromadb.api.types import (
    URI,
    CollectionMetadata,
    Embedding,
    PyEmbedding,
    Include,
    Metadata,
    Document,
    Image,
    Where,
    IDs,
    GetResult,
    QueryResult,
    ID,
    OneOrMany,
    WhereDocument,
    SearchResult,
    maybe_cast_one_to_many,
)
from chromadb.api.collection_configuration import UpdateCollectionConfiguration
from chromadb.execution.expression.plan import Search

import logging

logger = logging.getLogger(__name__)

if TYPE_CHECKING:
    from chromadb.api import ServerAPI  # noqa: F401


class Collection(CollectionCommon["ServerAPI"]):
    def count(self) -> int:
        """The total number of embeddings added to the database

        Returns:
            int: The total number of embeddings added to the database

        """
        return self._client._count(
            collection_id=self.id,
            tenant=self.tenant,
            database=self.database,
        )

    def add(
        self,
        ids: OneOrMany[ID],
        embeddings: Optional[
            Union[
                OneOrMany[Embedding],
                OneOrMany[PyEmbedding],
            ]
        ] = None,
        metadatas: Optional[OneOrMany[Metadata]] = None,
        documents: Optional[OneOrMany[Document]] = None,
        images: Optional[OneOrMany[Image]] = None,
        uris: Optional[OneOrMany[URI]] = None,
    ) -> None:
        """Add embeddings to the data store.
        Args:
            ids: The ids of the embeddings you wish to add
            embeddings: The embeddings to add. If None, embeddings will be computed based on the documents or images using the embedding_function set for the Collection. Optional.
            metadatas: The metadata to associate with the embeddings. When querying, you can filter on this metadata. Optional.
            documents: The documents to associate with the embeddings. Optional.
            images: The images to associate with the embeddings. Optional.
            uris: The uris of the images to associate with the embeddings. Optional.

        Returns:
            None

        Raises:
            ValueError: If you don't provide either embeddings or documents
            ValueError: If the length of ids, embeddings, metadatas, or documents don't match
            ValueError: If you don't provide an embedding function and don't provide embeddings
            ValueError: If you provide both embeddings and documents
            ValueError: If you provide an id that already exists

        """

        add_request = self._validate_and_prepare_add_request(
            ids=ids,
            embeddings=embeddings,
            metadatas=metadatas,
            documents=documents,
            images=images,
            uris=uris,
        )

        self._client._add(
            collection_id=self.id,
            ids=add_request["ids"],
            embeddings=add_request["embeddings"],
            metadatas=add_request["metadatas"],
            documents=add_request["documents"],
            uris=add_request["uris"],
            tenant=self.tenant,
            database=self.database,
        )

    def get(
        self,
        ids: Optional[OneOrMany[ID]] = None,
        where: Optional[Where] = None,
        limit: Optional[int] = None,
        offset: Optional[int] = None,
        where_document: Optional[WhereDocument] = None,
        include: Include = ["metadatas", "documents"],
    ) -> GetResult:
        """Get embeddings and their associate data from the data store. If no ids or where filter is provided returns
        all embeddings up to limit starting at offset.

        Args:
            ids: The ids of the embeddings to get. Optional.
            where: A Where type dict used to filter results by. E.g. `{"$and": [{"color" : "red"}, {"price": {"$gte": 4.20}}]}`. Optional.
            limit: The number of documents to return. Optional.
            offset: The offset to start returning results from. Useful for paging results with limit. Optional.
            where_document: A WhereDocument type dict used to filter by the documents. E.g. `{"$contains": "hello"}`. Optional.
            include: A list of what to include in the results. Can contain `"embeddings"`, `"metadatas"`, `"documents"`. Ids are always included. Defaults to `["metadatas", "documents"]`. Optional.

        Returns:
            GetResult: A GetResult object containing the results.

        """
        get_request = self._validate_and_prepare_get_request(
            ids=ids,
            where=where,
            where_document=where_document,
            include=include,
        )

        get_results = self._client._get(
            collection_id=self.id,
            ids=get_request["ids"],
            where=get_request["where"],
            where_document=get_request["where_document"],
            include=get_request["include"],
            limit=limit,
            offset=offset,
            tenant=self.tenant,
            database=self.database,
        )
        return self._transform_get_response(
            response=get_results, include=get_request["include"]
        )

    def peek(self, limit: int = 10) -> GetResult:
        """Get the first few results in the database up to limit

        Args:
            limit: The number of results to return.

        Returns:
            GetResult: A GetResult object containing the results.
        """
        return self._transform_peek_response(
            self._client._peek(
                collection_id=self.id,
                n=limit,
                tenant=self.tenant,
                database=self.database,
            )
        )

    def query(
        self,
        query_embeddings: Optional[
            Union[
                OneOrMany[Embedding],
                OneOrMany[PyEmbedding],
            ]
        ] = None,
        query_texts: Optional[OneOrMany[Document]] = None,
        query_images: Optional[OneOrMany[Image]] = None,
        query_uris: Optional[OneOrMany[URI]] = None,
        ids: Optional[OneOrMany[ID]] = None,
        n_results: int = 10,
        where: Optional[Where] = None,
        where_document: Optional[WhereDocument] = None,
        include: Include = [
            "metadatas",
            "documents",
            "distances",
        ],
    ) -> QueryResult:
        """Get the n_results nearest neighbor embeddings for provided query_embeddings or query_texts.

        Args:
            query_embeddings: The embeddings to get the closes neighbors of. Optional.
            query_texts: The document texts to get the closes neighbors of. Optional.
            query_images: The images to get the closes neighbors of. Optional.
            query_uris: The URIs to be used with data loader. Optional.
            ids: A subset of ids to search within. Optional.
            n_results: The number of neighbors to return for each query_embedding or query_texts. Optional.
            where: A Where type dict used to filter results by. E.g. `{"$and": [{"color" : "red"}, {"price": {"$gte": 4.20}}]}`. Optional.
            where_document: A WhereDocument type dict used to filter by the documents. E.g. `{"$contains": "hello"}`. Optional.
            include: A list of what to include in the results. Can contain `"embeddings"`, `"metadatas"`, `"documents"`, `"distances"`. Ids are always included. Defaults to `["metadatas", "documents", "distances"]`. Optional.

        Returns:
            QueryResult: A QueryResult object containing the results.

        Raises:
            ValueError: If you don't provide either query_embeddings, query_texts, or query_images
            ValueError: If you provide both query_embeddings and query_texts
            ValueError: If you provide both query_embeddings and query_images
            ValueError: If you provide both query_texts and query_images

        """

        query_request = self._validate_and_prepare_query_request(
            query_embeddings=query_embeddings,
            query_texts=query_texts,
            query_images=query_images,
            query_uris=query_uris,
            ids=ids,
            n_results=n_results,
            where=where,
            where_document=where_document,
            include=include,
        )

        query_results = self._client._query(
            collection_id=self.id,
            ids=query_request["ids"],
            query_embeddings=query_request["embeddings"],
            n_results=query_request["n_results"],
            where=query_request["where"],
            where_document=query_request["where_document"],
            include=query_request["include"],
            tenant=self.tenant,
            database=self.database,
        )

        return self._transform_query_response(
            response=query_results, include=query_request["include"]
        )

    def modify(
        self,
        name: Optional[str] = None,
        metadata: Optional[CollectionMetadata] = None,
        configuration: Optional[UpdateCollectionConfiguration] = None,
    ) -> None:
        """Modify the collection name or metadata

        Args:
            name: The updated name for the collection. Optional.
            metadata: The updated metadata for the collection. Optional.

        Returns:
            None
        """

        self._validate_modify_request(metadata)

        # Note there is a race condition here where the metadata can be updated
        # but another thread sees the cached local metadata.
        # TODO: fixme
        self._client._modify(
            id=self.id,
            new_name=name,
            new_metadata=metadata,
            new_configuration=configuration,
            tenant=self.tenant,
            database=self.database,
        )

        self._update_model_after_modify_success(name, metadata, configuration)

    def fork(
        self,
        new_name: str,
    ) -> "Collection":
        """Fork the current collection under a new name. The returning collection should contain identical data to the current collection.
        This is an experimental API that only works for Hosted Chroma for now.

        Args:
            new_name: The name of the new collection.

        Returns:
            Collection: A new collection with the specified name and containing identical data to the current collection.
        """
        model = self._client._fork(
            collection_id=self.id,
            new_name=new_name,
            tenant=self.tenant,
            database=self.database,
        )
        return Collection(
            client=self._client,
            model=model,
            embedding_function=self._embedding_function,
            data_loader=self._data_loader,
        )

    def search(
        self,
        searches: OneOrMany[Search],
    ) -> SearchResult:
        """Perform hybrid search on the collection.
        This is an experimental API that only works for Hosted Chroma for now.

        Args:
            searches: A single Search object or a list of Search objects, each containing:
                - where: Where expression for filtering
                - rank: Ranking expression for hybrid search (defaults to Val(0.0))
                - limit: Limit configuration for pagination (defaults to no limit)
                - select: Select configuration for keys to return (defaults to empty)

        Returns:
            SearchResult: Column-major format response with:
                - ids: List of result IDs for each search payload
                - documents: Optional documents for each payload
                - embeddings: Optional embeddings for each payload
                - metadatas: Optional metadata for each payload
                - scores: Optional scores for each payload
                - select: List of selected keys for each payload

        Raises:
            NotImplementedError: For local/segment API implementations

        Examples:
            # Using builder pattern with Key constants
            from chromadb.execution.expression import (
                Search, Key, K, Knn, Val
            )

            # Note: K is an alias for Key, so K.DOCUMENT == Key.DOCUMENT
            search = (Search()
                .where((K("category") == "science") & (K("score") > 0.5))
                .rank(Knn(query=[0.1, 0.2, 0.3]) * 0.8 + Val(0.5) * 0.2)
                .limit(10, offset=0)
                .select(K.DOCUMENT, K.SCORE, "title"))

            # Direct construction
            from chromadb.execution.expression import (
                Search, Eq, And, Gt, Knn, Limit, Select, Key
            )

            search = Search(
                where=And([Eq("category", "science"), Gt("score", 0.5)]),
                rank=Knn(query=[0.1, 0.2, 0.3]),
                limit=Limit(offset=0, limit=10),
                select=Select(keys={Key.DOCUMENT, Key.SCORE, "title"})
            )

            # Single search
            result = collection.search(search)

            # Multiple searches at once
            searches = [
                Search().where(K("type") == "article").rank(Knn(query=[0.1, 0.2])),
                Search().where(K("type") == "paper").rank(Knn(query=[0.3, 0.4]))
            ]
            results = collection.search(searches)
        """
        # Convert single search to list for consistent handling
        searches_list = maybe_cast_one_to_many(searches)
        if searches_list is None:
            searches_list = []

        # Embed any string queries in Knn objects
        embedded_searches = [
            self._embed_search_string_queries(search) for search in searches_list
        ]

        return self._client._search(
            collection_id=self.id,
            searches=cast(List[Search], embedded_searches),
            tenant=self.tenant,
            database=self.database,
        )

    def update(
        self,
        ids: OneOrMany[ID],
        embeddings: Optional[
            Union[
                OneOrMany[Embedding],
                OneOrMany[PyEmbedding],
            ]
        ] = None,
        metadatas: Optional[OneOrMany[Metadata]] = None,
        documents: Optional[OneOrMany[Document]] = None,
        images: Optional[OneOrMany[Image]] = None,
        uris: Optional[OneOrMany[URI]] = None,
    ) -> None:
        """Update the embeddings, metadatas or documents for provided ids.

        Args:
            ids: The ids of the embeddings to update
            embeddings: The embeddings to update. If None, embeddings will be computed based on the documents or images using the embedding_function set for the Collection. Optional.
            metadatas:  The metadata to associate with the embeddings. When querying, you can filter on this metadata. Optional.
            documents: The documents to associate with the embeddings. Optional.
            images: The images to associate with the embeddings. Optional.
        Returns:
            None
        """
        update_request = self._validate_and_prepare_update_request(
            ids=ids,
            embeddings=embeddings,
            metadatas=metadatas,
            documents=documents,
            images=images,
            uris=uris,
        )

        self._client._update(
            collection_id=self.id,
            ids=update_request["ids"],
            embeddings=update_request["embeddings"],
            metadatas=update_request["metadatas"],
            documents=update_request["documents"],
            uris=update_request["uris"],
            tenant=self.tenant,
            database=self.database,
        )

    def upsert(
        self,
        ids: OneOrMany[ID],
        embeddings: Optional[
            Union[
                OneOrMany[Embedding],
                OneOrMany[PyEmbedding],
            ]
        ] = None,
        metadatas: Optional[OneOrMany[Metadata]] = None,
        documents: Optional[OneOrMany[Document]] = None,
        images: Optional[OneOrMany[Image]] = None,
        uris: Optional[OneOrMany[URI]] = None,
    ) -> None:
        """Update the embeddings, metadatas or documents for provided ids, or create them if they don't exist.

        Args:
            ids: The ids of the embeddings to update
            embeddings: The embeddings to add. If None, embeddings will be computed based on the documents using the embedding_function set for the Collection. Optional.
            metadatas:  The metadata to associate with the embeddings. When querying, you can filter on this metadata. Optional.
            documents: The documents to associate with the embeddings. Optional.

        Returns:
            None
        """
        upsert_request = self._validate_and_prepare_upsert_request(
            ids=ids,
            embeddings=embeddings,
            metadatas=metadatas,
            documents=documents,
            images=images,
            uris=uris,
        )

        self._client._upsert(
            collection_id=self.id,
            ids=upsert_request["ids"],
            embeddings=upsert_request["embeddings"],
            metadatas=upsert_request["metadatas"],
            documents=upsert_request["documents"],
            uris=upsert_request["uris"],
            tenant=self.tenant,
            database=self.database,
        )

    def delete(
        self,
        ids: Optional[IDs] = None,
        where: Optional[Where] = None,
        where_document: Optional[WhereDocument] = None,
    ) -> None:
        """Delete the embeddings based on ids and/or a where filter

        Args:
            ids: The ids of the embeddings to delete
            where: A Where type dict used to filter the delection by. E.g. `{"$and": [{"color" : "red"}, {"price": {"$gte": 4.20}]}}`. Optional.
            where_document: A WhereDocument type dict used to filter the deletion by the document content. E.g. `{"$contains": "hello"}`. Optional.

        Returns:
            None

        Raises:
            ValueError: If you don't provide either ids, where, or where_document
        """
        delete_request = self._validate_and_prepare_delete_request(
            ids, where, where_document
        )

        self._client._delete(
            collection_id=self.id,
            ids=delete_request["ids"],
            where=delete_request["where"],
            where_document=delete_request["where_document"],
            tenant=self.tenant,
            database=self.database,
        )

    def create_task(
        self,
        task_name: str,
        operator_name: str,
        output_collection_name: str,
        params: Optional[Dict[str, Any]] = None,
    ) -> tuple[bool, str]:
        """Create a recurring task that processes this collection.

        Args:
            task_name: Unique name for this task instance
            operator_name: Built-in operator name (e.g., "record_counter")
            output_collection_name: Name of the collection where task output will be stored
            params: Optional dictionary with operator-specific parameters

        Returns:
            tuple: (success: bool, task_id: str)

        Example:
            >>> success, task_id = collection.create_task(
            ...     task_name="count_docs",
            ...     operator_name="record_counter",
            ...     output_collection_name="doc_counts",
            ...     params={"threshold": 100}
            ... )
        """
        return self._client.create_task(
            task_name=task_name,
            operator_name=operator_name,
            input_collection_id=self.id,
            output_collection_name=output_collection_name,
            params=params,
            tenant=self.tenant,
            database=self.database,
        )

    def remove_task(
        self,
        task_name: str,
        delete_output: bool = False,
    ) -> bool:
        """Delete a task and prevent any further runs.

        Args:
            task_name: Name of the task to remove
            delete_output: Whether to also delete the output collection. Defaults to False.

        Returns:
            bool: True if successful

        Example:
            >>> success = collection.remove_task("count_docs", delete_output=True)
        """
        return self._client.remove_task(
            task_name=task_name,
            input_collection_id=self.id,
            delete_output=delete_output,
            tenant=self.tenant,
            database=self.database,
        )
